DE4320115C2 - Method for filling a container scale - Google Patents

Abstract

What is described is a method for filling a container balance with at least one component, at least one element for coarse filling and at least one element for fine filling being provided. <IMAGE>

Description

The invention relates to a device and a method, in particular for filling a container scale with at least one material component.

Such devices and methods are known, for example as the method of Dosing using mechanical elements.

The components are supplied with mechanical dosing elements, for Example dosing screws or vibrating troughs. For this it is necessary that so-called work or day containers above the actual container scale are arranged, which are designed in their volume so that they have several Can accommodate partial batches. The dosing element in the form of a snail thus takes over the task of dispensing and metering the components and can be operated in coarse and fine flow.

A disadvantage of this configuration is the relatively large amount of space required Work containers and associated high investment costs for containers, necessary discharge facilities and premises.

Such methods with pneumatic filling are also known.  

The disadvantage here is that the dosage in the fine stream is not arbitrarily small and can be controlled precisely. In addition, the scale is partially during filling exposed to different pressure conditions. In addition, it must be in the As a rule, a ventilation filter for cleaning the conveyed air from the carried material exhibit.

These filter elements are always with residual dust when emptying the scale afflicted. These factors make the weighing accuracy negative influenced.

A coarse and a fine metering is known from DE 28 05 565. The Fine dosing is carried out via an intermediate container, the Intermediate tank is provided with valves and lines and the valves in the The weighing container opens. There is an additional line for rough dosing provided that opens into the separator.

The disadvantage of this device is that each of these lines with elastic elements must be provided, which are susceptible to failure because they Avoid applying force to the weighing container and accordingly must be soft.

It is also from DE 25 37 869 a device for pneumatic filling of bulk goods. In this device, the bulk material is made up of several flexible tanks suspended in carrying bags in receptacles or troughs promoted, the tanks with pneumatic pulsation devices for Moving the tank walls are provided. To convey the bulk material is a Fan provided. An exact dosage is however with this facility not possible because a fine dosing would require additional elements.  

From DE PS 3 81 304 a feed device is provided on a scale, wherein a pre-filling process and a refilling process are carried out. Both Operations take place using screw conveyors, which have the disadvantage that they do not allow rapid filling.

From US Pat. No. 3,970,159 there are devices for metering conveyed goods It can be seen that each device works with a screw as a fine metering element. The facilities each require two filling openings, namely a first one Filling opening for the coarse flow and a second filling opening for the fine flow. The publication also shows that the feeder for the fine dosing can be done by vibration. A disadvantage of this system is that this limits the coarse flow, since the feed pipe is in one Coarse flow range and a fine flow range is divided. In addition, the Fine dosing by means of vibrations Disadvantages, in particular there is no quick one Fine dosing possible. Due to the vibration, the material moves very slowly and partially undefined in the filling area.

Another disadvantage is that there is no immediate dosing There is a connection between the vibration frequency and the material fed.

The invention is therefore based on the object of an apparatus and a method of the type mentioned in order to improve that with low structural Effort and at the same time with a high accuracy at least one dosage a material component is carried out. This task is done according to the device solved by claim 1, a method in particular for filling a Container car describes claim 6.

A major advantage of the device shown is filling one Container scales with one and the same component by means of a pneumatic  Coarse dosing and mechanical fine dosing, about the same Opening takes place, the pneumatic rough dosing with a Pipe loop separator is realized.

An advantageous further development is the very high accuracy of the fine filling with a snail, because the fine flow is arbitrarily small and even can be done and because the container scale during the mechanical Weighing process is not exposed to pressure fluctuations and under atmospheric conditions works.

According to a further development, the storage containers in the pneumatic as the hydraulic filling in any position and distance from the container scale stand, since they are connected to the inlet of the Weighing container are connected. Because the weighing container is only relatively small Shut-off and delivery valves are arranged, the space requirement is very small. Advantageous developments of the invention result from the subclaims. These and other features of preferred developments of the invention go in addition to the claims and the description and drawings the individual features stand alone or in several Form of sub-combinations in the embodiment of the invention and on be realized in other areas and advantageous as well as protectable Can represent versions for which protection is claimed here.

Embodiments of the invention are shown in the drawings and are explained in more detail below.

The drawings show:

Fig. 1 a plant scheme,

Fig. 2 shows a detail.

The bulk material components are filled in a bag feed station 1 , so that a minimum supply of material, signaled by filling detector 2 , is available for weighing. For this purpose, the swiveling cover 3 of the bag loading station is opened and shot after filling.

During the filling process, the bag application is aspirated by a suction fan 4 via an integrated filter 5 , so that even dust-containing material can be added without dust.

To generate the flow of conveying air, a blower 6 is used, which can be connected to the corresponding components via the flap 7 . The entire system is controlled by a dosing processor. To fill the balance in the coarse flow, the shut-off element 8 of the corresponding component is opened, the flap 7 in the clean air line is opened and the fan 6 is started. The lock 9 is started with a time delay and the weighing container is filled pneumatically in high flow with high output, the conveying air flow not being fed into the container scale 10 . At the same time, storage space 15 is filled, which supplies the fine dosing with material. The driving force of the pneumatic filling is a pressure gradient.

If the weight is freely selectable before the target weight is reached, the coarse flow is switched off by switching off the lock and the fan is switched off after a run-on time. Now, by opening the flap 16 , pressure equalization can be brought about in the balance, so that the entire weighing system works under atmospheric conditions. Now the shut-off element 8 is opened again and so much material is weighed via the metering element 14 in fine flow that the target weight is reached exactly. The pre-switch-off point is recalculated and optimized by the weighing processor after each dosing process. After filling the first component, the other components are dosed in the same way and the entire recipe is put together.

The conveyed air separated from the conveyed material in the metering element 12 contains dust and is cleaned by returning it to the bag feed station 1 via its filter 5 .

Claims (6)

1. An apparatus, in particular for filling a container scale with at least one material component, wherein at least one element for coarse filling and at least one element for the pure filling is present., Characterized in that both elements are arranged at a single filler opening which a shut-off ( 8 ) has that the element for the rough filling is a pneumatic element and the element for the fine filling is a mechanical element and that a pipe loop separator is provided for separating the pneumatically conveyed material. 2. Device according to claim 1, characterized in that the mechanical element is a snail. 3. Device according to claim 1 or 2, characterized in that for the Conveying air flow of the pipe loop separator into the conveying air line Feed container returns and a filter arranged in the feed container is. 4. The device according to claim 1, characterized in that the coarse flow is carried out in suction or pressure mode and the fine flow under atmospheric conditions in the balance takes place. 5. The device according to claim 4, characterized in that it in one The entire system is integrated in such a way that the conveying air flow back into the Task container leads and a filter in the task container for cleaning is provided.   6. Method, in particular for filling a container scale, in particular with a component, at least one element for the rough Filling and at least one element for fine filling is operated, whereby to separate the pneumatically conveyed material during the Coarse flow a pipe loop separator is used, the pneumatic filling is carried out in suction or pressure mode, the conveying air flow is guided past the container scale, whereby the conveying air flow is led into the feed container and with a filter is cleaned.